Environmental dependence of the galaxy stellar mass function in the Dark Energy Survey Science Verification Data

Measurements of the galaxy stellar mass function are crucial to understand the formation of galaxies in the Universe. In a hierarchical clustering paradigm, it is plausible that there is a connection between the properties of galaxies and their environments. Evidence for environmental trends has bee...

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Main Authors: Etherington, J, Thomas, D, Desai, Shantanu, Maraston, C
Format: Article in Journal/Newspaper
Language:unknown
Published: Oxford University Press (OUP) 2017
Subjects:
Physics
South Pole
South pole
Online Access:http://raiith.iith.ac.in/5387/
id ftiith:oai:raiith.iith.ac.in:5387
record_format openpolar
spelling ftiith:oai:raiith.iith.ac.in:5387 2023-05-15T18:22:57+02:00 Environmental dependence of the galaxy stellar mass function in the Dark Energy Survey Science Verification Data Etherington, J Thomas, D Desai, Shantanu Maraston, C 2017-04-01 http://raiith.iith.ac.in/5387/ unknown Oxford University Press (OUP) Etherington, J and Thomas, D and Desai, Shantanu and Maraston, C et. al. (2017) Environmental dependence of the galaxy stellar mass function in the Dark Energy Survey Science Verification Data. Monthly Notices of the Royal Astronomical Society, 466 (1). pp. 228-247. ISSN 0035-8711 Physics Article PeerReviewed 2017 ftiith 2022-09-28T08:35:12Z Measurements of the galaxy stellar mass function are crucial to understand the formation of galaxies in the Universe. In a hierarchical clustering paradigm, it is plausible that there is a connection between the properties of galaxies and their environments. Evidence for environmental trends has been established in the local Universe. The Dark Energy Survey (DES) provides large photometric data sets that enable further investigation of the assembly of mass. In this study, we use ∼3.2 million galaxies from the (South Pole Telescope) SPT-East field in the DES science verification (SV) data set. From grizY photometry, we derive galaxy stellar masses and absolute magnitudes, and determine the errors on these properties using Monte Carlo simulations using the full photometric redshift probability distributions. We compute galaxy environments using a fixed conical aperture for a range of scales. We construct galaxy environment probability distribution functions and investigate the dependence of the environment errors on the aperture parameters. We compute the environment components of the galaxy stellar mass function for the redshift range 0.15 < z < 1.05. For z < 0.75, we find that the fraction of massive galaxies is larger in high-density environment than in low-density environments. We show that the low-density and high-density components converge with increasing redshift up to z ∼ 1.0 where the shapes of the mass function components are indistinguishable. Our study shows how high-density structures build up around massive galaxies through cosmic time. Article in Journal/Newspaper South pole Research Archive of Indian Institute of Technology, Hyderabad (RAIITH) South Pole
institution Open Polar
collection Research Archive of Indian Institute of Technology, Hyderabad (RAIITH)
op_collection_id ftiith
language unknown
topic Physics
spellingShingle Physics
Etherington, J
Thomas, D
Desai, Shantanu
Maraston, C
Environmental dependence of the galaxy stellar mass function in the Dark Energy Survey Science Verification Data
topic_facet Physics
description Measurements of the galaxy stellar mass function are crucial to understand the formation of galaxies in the Universe. In a hierarchical clustering paradigm, it is plausible that there is a connection between the properties of galaxies and their environments. Evidence for environmental trends has been established in the local Universe. The Dark Energy Survey (DES) provides large photometric data sets that enable further investigation of the assembly of mass. In this study, we use ∼3.2 million galaxies from the (South Pole Telescope) SPT-East field in the DES science verification (SV) data set. From grizY photometry, we derive galaxy stellar masses and absolute magnitudes, and determine the errors on these properties using Monte Carlo simulations using the full photometric redshift probability distributions. We compute galaxy environments using a fixed conical aperture for a range of scales. We construct galaxy environment probability distribution functions and investigate the dependence of the environment errors on the aperture parameters. We compute the environment components of the galaxy stellar mass function for the redshift range 0.15 < z < 1.05. For z < 0.75, we find that the fraction of massive galaxies is larger in high-density environment than in low-density environments. We show that the low-density and high-density components converge with increasing redshift up to z ∼ 1.0 where the shapes of the mass function components are indistinguishable. Our study shows how high-density structures build up around massive galaxies through cosmic time.
format Article in Journal/Newspaper
author Etherington, J
Thomas, D
Desai, Shantanu
Maraston, C
author_facet Etherington, J
Thomas, D
Desai, Shantanu
Maraston, C
author_sort Etherington, J
title Environmental dependence of the galaxy stellar mass function in the Dark Energy Survey Science Verification Data
title_short Environmental dependence of the galaxy stellar mass function in the Dark Energy Survey Science Verification Data
title_full Environmental dependence of the galaxy stellar mass function in the Dark Energy Survey Science Verification Data
title_fullStr Environmental dependence of the galaxy stellar mass function in the Dark Energy Survey Science Verification Data
title_full_unstemmed Environmental dependence of the galaxy stellar mass function in the Dark Energy Survey Science Verification Data
title_sort environmental dependence of the galaxy stellar mass function in the dark energy survey science verification data
publisher Oxford University Press (OUP)
publishDate 2017
url http://raiith.iith.ac.in/5387/
geographic South Pole
geographic_facet South Pole
genre South pole
genre_facet South pole
op_relation Etherington, J and Thomas, D and Desai, Shantanu and Maraston, C et. al. (2017) Environmental dependence of the galaxy stellar mass function in the Dark Energy Survey Science Verification Data. Monthly Notices of the Royal Astronomical Society, 466 (1). pp. 228-247. ISSN 0035-8711
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